Jen-Tzong Jeng

Office: MB02A, Department of Mechanical Engineering 
Phone: +886-7-381-4526 ext. 15373
FAX: +886-7-381-0570
E-mail: jtjeng(at)nkust.edu.tw 
Research Group: Micro-Magnetic Technologies Lab

Resume      Teaching      Funding      Expertise      Research      Publications

Resume

Title

Professor-- Department of Mechanical EngineeringNational Kaohsiung University of Science and Technology

Qualification

Ph.D. in Physics-- National Taiwan Normal University

Employment

Professor-- Department of Mechanical Engineering, National Kaohsiung University of Science and Technology (2018.2-now)
Professor-- Department of Mechanical Engineering, National Kaohsiung University of Applied Sciences (2011.8-2018.1)
Associate Professor-- Department of Mechanical Engineering, National Kaohsiung University of Applied Sciences (2008.2-2011.7)
Associate Professor--
Department of Mechanical Engineering, National Taipei University of Technology (2007.2-2008.1)
Assistant Professor-- Department of Mechanical Engineering, National Taipei University of Technology (2002.8-2007.1)
Postdoctoral Fellow-- Department of Physics, National Taiwan University (2001.8-2002.1)

Honor

Ph.D. Thesis Award granted by the Physical Society of Republic of China (2003)
T-NANO Paper of the Year Award granted by the IEEE Nanotechnology Council (2018)

Teaching                                                                           

Undergraduate: Physics, Chemistry, Applied Thermodynamics, Electromagnetics 
Graduate:  Research methodology, Quantum Mechanics

 

Funding

Government

Title:  Fabrication and characterization of high-performance magnetohydrodynamic thruster

Project dates: 2021/08/01-2023/07/31 

Sponsor: National Science and Technology Council of ROC

Grant No.: NSTC112-2221-E-992-038

Amount: NTD 1,100,000

PI/co-PI: Jen-Tzong Jeng
Government

Title:  Eddy-current imaging system

Project dates: 2021/08/01-2023/07/31 

Sponsor: National Science and Technology Council of ROC

Grant No.: NSTC-110-2221-E-992-061-MY2

Amount: NTD 2,138,000

PI/co-PI: Jen-Tzong Jeng
Government

Title:  Design and Fabrication of Miniature Eddy-Current Sensors

Project dates: 2019/08/01-2021/07/31 

Sponsor: Ministry of Science and Technology of ROC

Grant No.: MOST 108-2221-E992-083MY2

Amount: NTD 2,050,000

PI/co-PI: Jen-Tzong Jeng
Government

Title:  Research on GMR Sensors for Non-contact Current Measurement (II)

Project dates: 2018/08/01-2019/07/31 

Sponsor: Ministry of Science and Technology of ROC

Grant No.:MOST 107-2221-E-992-094

Amount: NTD 1,095,000

PI/co-PI: Jen-Tzong Jeng
Government

Title:  Research on GMR Sensors for Non-contact Current Measurement

Project dates: 2017/08/01-2018/07/31 

Sponsor: Ministry of Science and Technology of ROC

Grant No.: MOST 106-2221-E-151-025

Amount: NTD 794,000

PI/co-PI: Jen-Tzong Jeng
Government

Title: Design and fabrication of linear magnetic field sensors with a high dynamic range (II)

Project dates: 2016/08/01-2017/07/31 

Sponsor: Ministry of Science and Technology of ROC

Grant No.: MOST 105-2221-E-151-038

Amount: NTD 779,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Design and fabrication of linear magnetic field sensors with a high dynamic range

Project dates: 2015/08/01-2016/07/31 

Sponsor: Ministry of Science and Technology of ROC

Grant No.: MOST 104-2221-E-151-011

Amount: NTD748,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Design and fabrication of SQUID and microfluxgate chips for vector magnetic field sensing

Project dates: 2013/08/01-2015/07/31 

Sponsor: National Science Council of ROC

Grant No.: NSC 102-2221-E-151 -048 -MY2

Amount: NTD1,681,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: High-Tc Josephson junctions and SQUIDs with artificial and natural tunneling barriers

Project dates: 2009/08/01-2012/07/31 

Sponsor: National Science Council of ROC

Grant No.: NSC98-2112-M-151-002 -MY3

Amount: NTD4,336,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Noise characteristics of HTS Josephon-junction arrays and SQUID amplifiers

Project dates: 2008/08/01-2009/07/31, Phase III

Sponsor: National Science Council of ROC

Grant No.: NSC95-2112-M-151-001-MY3

Amount: NTD1,483,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Noise characteristics of HTS Josephon-junction arrays and SQUID amplifiers

Project dates: 2007/08/01-2008/07/31, Phase II

Sponsor: National Science Council of ROC

Grant No.: NSC95-2112-M-151-001-MY3 

Amount: NTD1,575,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Noise characteristics of HTS Josephon-junction arrays and SQUID amplifiers

Project dates: 2006/08/01-2007/07/31, Phase I

Sponsor: National Science Council of ROC

Grant No.: NSC95-2112-M-151-001-MY3

Amount: NTD1,770,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Flux-to-voltage transfer function and flux noise of asymmetric HTS dc SQUID

Project dates: 2005/08/01-2006/07/31

Sponsor: National Science Council of ROC

Grant No.: NSC94-2112-M-027-003

Amount: NTD1,169,000

PI/co-PI: Jen-Tzong Jeng

Government

Title: Fabrication and Characterization of the Series dc SQUIDs

Project dates: 2004/08/01-2005/07/31, Phase III

Sponsor: National Science Council of ROC

Grant No.: NSC93-2112-M-027-003

Amount: NTD1,117,600

PI/co-PI: Jen-Tzong Jeng

Government

Title: Fabrication and Characterization of the Series dc SQUIDs

Project dates: 2003/08/01-2004/07/31, Phase II

Sponsor: National Science Council of ROC

Grant No.: NSC92-2112-M-027-004

Amount: NTD1,529,200

PI/co-PI: Jen-Tzong Jeng

Government

Title: Fabrication and Characterization of the Series dc SQUIDs

Project dates: 2002/10/01-2003/07/31, Phase I

Sponsor: National Science Council of ROC

Grant No.: NSC91-2119-M-027-001

Amount: NTD1,470,900

PI/co-PI: Jen-Tzong Jeng

Government

Technology Development Programs for Academia (TDPA)

Title: Planarization of 3D high performance magnetoresistance measurement and its applications 

Sub-project #3: Characterization of magnetic field sensors and development of driving circuits

Project dates: 2012/12/01-2015/11/30

Sponsor: Promotion Office for Academic TDP, Department of Industrial Technology (DoIT), Ministry of Economic Affairs of ROC

Grant No.: 101-EC-17-A-01-S1-219 

Project Leader: Ching-Ray Chang

Sub-project PI's: Ching-Ray Chang, Jen-Hwa Hsu, Jen-Tzong Jeng, Shuo-Hung Chang

Amount (first year for #3): NTD1,300,000

Juridical Person

Title: Research and Development of a Non-contact Displacement Sensor

Project Dates: 2010/03/01-2010/03/10

Sponsor: Precision Machinery Research & Development Center (PMC) 

Amount: NTD400,000

PI/co-PI: Jen-Tzong Jeng

Industry

Title: Interactive Projection System with Cylindrical or Dual-curved Screen

Project Dates: 2003/01/01-2005/02/28

Sponsor: VIVAVR Technology Co., Ltd. 

Amount: NTD2,200,000

PI/co-PI: J. Shaw, M.C. Wu, J.C. Wang, J.T. Jeng

 
Expertise

Superconducting Quantum Interference Devices (SQUID), Nondestructive Evaluation, Biomagnetic Medical Imaging, Thin Film Technology, Photolithography, Low Temperature Physics, Hall effect, Electromagnetic noise suppression


Research  

Magnetometers:

Giant magnetoresistive and Fluxgate magnetometers, chip-scale vector magnetometers

Magnetic Detection Systems: Eddy-current detectors, Susceptometers, Magnetic-field mapping, and Magnetic source Imaging, Metal sorting, Non-contact thickness measurement

Device Physics and Applications of SQUID: Physics of SQUID and Josephson junctions, Device fabrication, SQUID magnetometer

Publications                                                                                    

 Journal papers                                                                  *Corresponding author

SCI, EI         95   Long-Vu Bui, Jen-Tzong Jeng*, Duy-Vinh Dao, Van-Dong Doan, Huu-Thang Nguyen, and Bo-Yao Liang, “Liftoff Insensitive Conductivity Mapping Using a Self-Resonant Eddy-Current Probe,” IEEE Transactions on Instrumentation and Measurement,73, 6001713 (29 Dec. 2023).

SCI, EI         94   Duy-Vinh Dao, Jen-Tzong Jeng*, Van-Dong Doan, Huu-Thang Nguyen and Bo-Yao Liang, “Development of Electromagnetic Acoustic Transducer System for Coin Classification,” Sensors, 22(23), 09055 (22 Nov. 2022).

SCI, EI         93   X. T. Trinh, J. T. Jeng*, H. T. Nguyen, V. S. Luong, & C. C. Lu, “Two-Dimensional Position Tracking Using Gradient Magnetic Fields,” Sensors, 22(14), 5459 (21 July 2022).

SCI, EI         92   H. T. Nguyen, J. T. Jeng*, V. D. Doan, C. H. Dinh, X. T. Trinh, & D. V. Dao, “Detection of Surface and Subsurface Flaws with Miniature GMR-Based Gradiometer,” Sensors, 22(8), 3097 (Apr. 2022).

SCI, EI         91   C. C. Lu, Y. C. Lin, Y. Z. Tian, J. T. Jeng*, “Hybrid microfluxgate and current transformer sensor,” IEEE Transactions on Magnetics, vol. 58, no. 8, 8002105 (August 2022).

SCI, EI         90   V. D. Doan, J. T. Jeng*, H. T. Nguyen, C. H. Dinh, D. V. Dao, & T. T. Pham, “Magnetization measurement system with giant magnetoresistance zero-field detector”, IEEE Transactions on Magnetics, Vol. 58, no. 2, 6000405 (Feb. 2022).

SCI, EI         89   Duy-Vinh Dao, Jen-Tzong Jeng*, Van-Dong Doan, Chinh-Hieu Chinh, Thi Trang Pham, and Huu-Thang Nguyen, “Classification of steel balls by resonant eddy current sensor,” Measurement Science and Technology, vol.33, no. 2, 025601 (2022).

SCI, EI         88   Huu-Thang Nguyen, Jen-Tzong Jeng*, Van-Dong Doan, Chinh-Hieu Dinh, Duy Vinh Dao, Thi-Trang Pham, Xuan-Thang Trinh, "Surface and subsurface eddy-current imaging with GMR sensor," IEEE Transactions on Instrumentation and Measurement, vol. 70, 6011310 (15 October 2021).

SCI, EI         87   C. H. Dinh, J. T. Jeng*, G. W. Huang, J. Y. Chen, Y. S. Chiang, V. D. Doan, & T. T. Pham, “Real-Time Thickness Measurement Using Resonant Eddy-Current Sensor”, IEEE Transactions on Instrumentation and Measurement, vol. 70, 6007609 (May 2021).

SCI, EI         86   V. D. Doan, J. T. Jeng*, T. H. Tsao, T. T. Pham, G. W. Huang, C. H. Dinh, Tai-Hsing Lee, P. I. Mei, “Development of a Broad Bandwidth Helmholtz Coil for Biomagnetic Application”, IEEE Transactions on Magnetics, vol. 57, no. 2, 5300305 (Feb. 2021).

SCI, EI         85     V. D. Doan, J. T. Jeng*, T. H. Tsao, T. T. Pham, G. W. Huang, C. H. Dinh, Tai-Hsing Lee, P. I. Mei, “Development of a Broad Bandwidth Helmholtz Coil for Biomagnetic Application”, IEEE Transactions on Magnetics, vol. 57, no. 2, 5300305 (Feb. 2021).

SCI, EI         84     C. S. Chan, J. H. Cheng, C. H. Zeng, J. R. Huang, Y. H. Chen, Y. J. Chen, T. T. Pham, W. H. Chao, J. T. Jeng, T. L. Liu, K. C. Pan, Y. H. Li, and C. Y. Chen, "Design of marine vehicle powered by magnetohydrodynamic thruster", Magnetohydrodynamics, vol. 56, No.1 p. 3–17 (2020).

SCI, EI         83     Xuan Thang Trinh, Jen-Tzong Jeng*, Chih-Cheng Lu*, and Van Su Luong, “Orthogonality Correction for Concentric Tri-axis Fluxgate Magnetometer”, Journal of Magnetics 24(2), 350-354 (2019).

SCI, EI         82     Jen-Tzong Jeng*, Chih-Cheng Lu*, Hsiang-Wei Ku, Bo-Rei Huang, Meng-Huan Chia, Xuan Thang Trinh, “Three-Axis Micofluxgate With a Fluxguide”, IEEE Transactions on Magnetics, Volume: 55, Issue:7, 2002304 (July 2019).

SCI, EI         81     Jen-Tzong Jeng, Xuan-Thang Trinh , Chih-Hsien Hung, and Chih-Cheng Lu*, “Quasi-Static Current Measurement with Field-Modulated Spin-Valve GMR Sensors”, Sensors, 19(8), 1882 (2019).

SCI, EI         80     Partha Sarkar, Chih-Cheng Lu*, Jen-Tzong Jeng, Fu-Te Yuan, Meng-Huang Lai, Horia Chiriac, Nicoleta Lupu, Ching-Ray Chang, “Soft Ferromagnetic Amorphous Microwires for GMI Sensing Cores”, Journal of Magnetism and Magnetic Materials, 474, pp.107–110 (2019).

SCI, EI         79     Yi-Shian Chiang, Xuan Thang Trinh*, and Jen-Tzong Jeng*, “Flat Bandwidth Expansion for Spin-Valve GMR Magnetic Field Sensors”, IEEE Transactions on Magnetics, 54(11), 4001404 (2018)

SCI, EI         78     Guan-Wei Huang and Jen-Tzong Jeng*, “Implementation of 16-channel AMR sensor array for quantitative mapping of two-dimension current distribution”, IEEE Transactions on Magnetics, 54(11), 6500605 (2018)

SCI, EI         77     Van Su Luong, Yu-Hsin Su, Chih-Cheng Lu, Jen-Tzong Jeng, Jen-Hwa Hsu, Ming-Han Liao, Jong-Ching Wu, Meng-Huang Lai, Ching-Ray Chang*, “Planarization, Fabrication and Characterization of Three-dimensional Magnetic Field Sensors”, IEEE Transactions on Nanotechnology, Volume: 17, Issue: 1, Page(s): 11 - 25 (2018)   IEEE Nanotechnology Council 2018 Best Paper Award for the IEEE Transactions on Nanotechnology

SCI, EI         76     Van Su Luong, Jen-Tzong Jeng*, Chih-Cheng Lu*, and Hua-Yi Hsu, "Low-noise Tunneling-Magnetoresistance Vector Magnetometer with Flux Chopping Technique", Measurement, 109,  297–303  (29 May 2017)

SCI, EI         75     Xuan-Thang Trinh, Jen-Tzong Jeng*, Chih-Cheng Lu, Min-Jia Lan, Bo-Chen Chen, Jen-Hwa Hsu, Van-Su Luong, and Hua-Yi Hsu, "Miniature tri-axis magnetometer with in-plane GMR sensors", IEEE Transactions on Magnetics, Vol. 53, no.11, 4004304 (24 April 2017)

SCI, EI         74     Van Su Luong, Chih-Cheng Lu*, Jing-Wen Yang, and Jen-Tzong Jeng*, "A novel CMOS transducer for giant magnetoresistance sensors", Review of Scientific Instruments, vol. 88, 025004 (Feb. 2017)

SCI, EI         73     Van-Su Luong, Jen-Tzong Jeng*, Jen-Hwa Hsu, and Ching-Ray Chang, and Chih-Cheng Lu, “Tunneling- Magnetoresistance Vector Magnetometer With Deflection Flux-Chopper”, IEEE Transactions on Magnetics, vol. 52, no.7, 4001204 (Jul. 2016)

SCI, EI         72     Van-Su Luong, Jen-Tzong Jeng*, Bor-Lin Lai, Jen-Hwa Hsu, and Ching-Ray Chang, Chih-Cheng Lu, “Design of Three-Dimensional Magnetic Field Sensor with Single Bridge of Spin-Valve Giant Magnetoresistance Films”, IEEE Transactions on Magnetics, vol. 51, no.11, 4004504 (Nov. 2015)

SCI, EI         71     Chia-Yi Chiang, Jen-Tzong Jeng*, Bor-Lin Lai, Van Su Luong, and Chih-Cheng Lu, “Tri-axis magnetometer with in-plane GMR sensors for compass application”, Journal of Applied Physics, vol.117, 17A321 (March 2015)

SCI, EI         70     C. H. Wu*, W. S. Kuo, F. J. Jhan, J. H. Chen, and J. T. Jeng, “A Nanoscale-Localized Ion Damage Josephson Junction Using Focused Ion Beam and Ion Implanter”, Journal of Nanoscience and Nanotechnology, vol. 15, pp.3728–3732, (2015).

SCI, EI         69     Van-Su Luong, Chin-Hsiung Chang, Jen-Tzong Jeng*, Chih-Cheng Lu, Jen-Hwa Hsu, and Ching-Ray Chang, “Reduction of Low-Frequency Noise in Tunneling-Magnetoresistance Sensors with a Modulated Magnetic Shielding”, IEEE Transactions on Magnetics, Vol. 50, no.11, 4005904 (Nov. 2014).

SCI, EI         68     Chih-Cheng Lu*, Jeff Huang, Po-Kai Chiu, Shih-Liang Chiu, and Jen-Tzong Jeng, “High-Sensitivity Low-Noise Miniature Fluxgate Magnetometers Using Flip Chip Conceptual Design”, Sensors 14(8), 13815-13829 (30 July, 2014).

SCI, EI         67     Jen-Tzong Jeng, Chia-Yi Chiang, Chin-Hsiung Chang, and Chih-Cheng Lu*, "Vector magnetometer with dual-bridge GMR sensors", IEEE Transactions on Magnetics, Vol. 50, no.1, 4000704 (Jan. 2014).

                     66     Jen-Tzong Jeng*, Chia-Lun Shu, Jia-Chiang Wang, "Optical Body-Surface Profiling with Coded Markers for Medical Image registration", International Journal of Automation and Smart Technology; vol. 3, no. 2, p.85 (Mar. 2013).

SCI, EI         65      C. H. Wu*, W. C. Chang, J. T. Jeng, M. J. Wang, Y. S. Li, H. H. Chang, and M. K. Wu, “Transport properties in FeSe0.5Te0.5 nanobridges”, Applied Physics Letters, vol. 102, 222602 (2013).

SCI, EI         64       Chiu-Hsien Wu*, Fong-Jyun Jhan, Jau-Han Chen, and Jen-Tzong Jeng,“High-Tc Josephson junctions fabricated by focused ion beam direct milling”, Superconductor Science and Technology, vol. 26, article number 025010 (2013). 

SCI, EI         63       Jen-Tzong Jeng, Jian-Hau Chen, and Chih-Cheng Lu*, “Enhancement in Sensitivity Using Multiple Harmonics for Miniature Fluxgates”, IEEE Trans. Mag. 48, pp.3696-3699 (2012). 

SCI, EI         62       Chih-Cheng Lu, Yu-Ting Liu, Fang-Yu Jhao, and Jen-Tzong Jeng*, “Responsivity and Noise of a Wire-Bonded CMOS Micro-Fluxgate Sensor”, Sensors and Actuators A 179, pp. 39-43 (2012). [CIC]

SCI, EI         61       Jen-Tzong Jeng, Ting-Yu Hsu, and Chih-Cheng Lu*, “Odd-Harmonic Characteristics of the Field-Modulated GMR Magnetometer”, IEEE Trans. Mag. 47, pp.3538-3541 (2011). 

SCI, EI         60       Chih-Cheng Lu, Wen-Sheng Huang, Yu-Ting Liu, and Jen-Tzong Jeng*, “Design, Fabrication and Characterisation of a 3D CMOS Fluxgate Magnetometer”, IEEE Trans. Mag. 47, pp. 3752-3755 (2011). [CIC]

SCI, EI         59       Jen-Tzong Jeng* and Ting-Yu Hsu, “Characteristics of the Dual-Bridge Giant Magnetoresistance Magnetometer”, Rev. Sci. Instrum., 82, article no. 034701 (2011).

SCI, EI         58       Jen-Tzong Jeng*, Ming-Jye Wang, Chiu-Hsien Wu , and Chih-Cheng Lu, “Two-Stage Directly-Coupled Superconducting Quantum Interference Device Array Magnetometer”,  IEEE Trans. Appl. Supercond. 21, p399-403 (2011).

SCI, EI         57       Chiu-Hsien Wu*, Fong-Jyun Jhan, Jau-Han Chen, Jen-Tzong Jeng, Kuen-Lin Chen, and Hong-Chang Yang, “Fabrication and Properties of High-Tc YBCO Josephson junction and SQUID with variable thickness bridges by Focused ion beam”, IEEE Trans. Appl. Supercond. 21, p375-378 (2011).

SCI, EI         56       Kuen-Lin Chen, U. C. Sou, J. C. Chen, H. C. Yang*, J. T. Jeng, P. C. Ko, H. E. Horng, C. H. Wu, and J. H. Chen, “Tunable high transition temperature superconducting quantum interference device magnetometer with gate-voltage-controlled bicrystal junctions,” Appl. Phys. Lett. 95, 033504 (2009). Selected for the August 1, 2009 issue of Virtual Journal of Applications of Superconductivity.

SCI, EI         55       Jen-Tzong Jeng*, Chih-Cheng Lu, Chih-Cheng Wang, and Chiu-Hsien Wu, “Spreads in critical current and normal conductance of high-Tc dc SQUID,” IEEE Trans. Appl. Supercond. 19 , 214 - 217 (2009).

SCI, EI         54       C. H. Wu*, J. H. Chen, F. J. Jhan, J. T. Jeng, and H. C. Yang, “Characterization of directly coupled dual-superconducting quantum interference device magnetometer,” J. Appl. Phys. 104, Article number 074504 (2008). Selected for the October 15, 2008 issue of Virtual Journal of Applications of Superconductivity.

SCI, EI         53       C. H. Wu*, Y. T. Chou, W. C. Kuo, J. H. Chen, L M Wang, J. C. Chen, K. L. Chen, U. C. Sou, H. C. Yang and J. T. Jeng, “Fabrication and characterization of high-Tc YBa2Cu3O7−x nanoSQUIDs made by focused ion beam milling,” Nanotechnology 19, 315304(5pp), (June 24, 2008).

SCI, EI         52       J.T. Jeng* and C. H. Wu, “Effective-barrier-thickness fluctuation and critical-current spread of grain-boundary Josephson junctions,” Appl. Phys. Lett. 92, 103511 (2008).  Selected for the March 15, 2008 issue of Virtual Journal of Applications of Superconductivity.

SCI, EI         51       J.T. Jeng*, K.H. Huang, C. H. Wu, K. L. Chen, J. C. Chen, and H. C. Yang, “Characteristics of the Superconducting-Quantum-Interference-Grating Magnetometer Consisting of Grain-Boundary Josephson Junctions,” IEEE Trans. Appl. Supercond. 17, 691 – 694 (2007).

SCI, EI         50       J.T. Jeng* and Y.C. Lin, “Parameter Spreads of dc SQUID with high-Tc Josephson junctions,” Chin. J. Phys., Vol. 45, No. 2-II, 175-182 (2007).

SCI, EI         49       C.-H. Wu, H.-C. Yang*, J.-C. Chen, K.-L. Chen, M.J. Chen, J.T. Jeng, and H.-E. Horng, “Superconducting-quantum-interference-device array magnetometers with directly coupled pickup loop and serial flux dams,” J. Appl. Phys. 100, Article number 064510 (2006).

SCI, EI         48       C. H. Wu, M. J. Chen, J. C. Chen, K. L. Chen, H. C. Yang*, M. S. Hsu, T. S. Lai, Y. S. Tsai, H. E. Horng, J. H. Chen, and J. T. Jeng, “High quality step-edge substrates for high-Tc superconducting devices,” Rev. Sci. Instrum. 77, 033901 (2006)

SCI              47       Ji-Cheng Chen, Chiu-Hsien Wu, Kuen-Lin Chen, Jen-Tzong Jeng, Herng-Er Horng, and Hong-Chang Yang*, “Resonant-frequency-dependent Flux Noise of a High–TC rf SQUID Coupled to a Substrate Resonator,” Journal of the Korean Physical Society (JKPS) 48, 1100 (2006).

SCI              46       Chiu-Hsien Wu*, K. L. Chen, J. C. Chen, M. J. Chen, C. Y. Chen, C. T. Chiang, Hong-Chang Yang, Herng-Er Horng, and J. T. Jeng, “Improving the Sensitivity of a High-Tc SQUID Magnetometer with a Serial Array,” Journal of the Korean Physical Society (JKPS) 48, 1109 (2006).

SCI, EI         45       Hong-Chang Yang*, Tsung-Yeh Wu, Herng-Er Horng, Chau-Chung Wu, S Y Yang, Shu-Hsien Liao, Chiu-Hsien Wu, J T Jeng, JC Chen, Kuen-Lin Chen, and M J Chen, “Scanning high-Tc SQUID imaging system for magnetocardiography,” Supercond. Sci. Technol. 19, S297–S302 (Mar. 6, 2006).

SCI               44       J. T. Jeng*, Y. C. Lin, K. H. Huang, C. H. Wu, K. L. Chen, J. C. Chen, S. H. Liao,  H. C. Yang, and H. E. Horng, “Probability Density Function for the Critical Current Asymmetry of a HTS dc SQUID”, Journal of the Korean Physical Society (JKPS) 48, 1117 (2006).

SCI, EI         43       C. H. Wu*, M. H. Hsu, K. L. Chen, J. C. Chen, J. T. Jeng, T. S Lai, Herng-Er Horng, and Hong-Chang Yang, “Highly sensitive YBCO serial SQUID magnetometer with flux focuser,” Supercond. Sci. Technol. 19, S246–S250 (Feb. 27, 2006).

SCI, EI         42       C. H Wu, U. C. Sou, J. C Chen, K. L. Chen, H. C Yang*, Y. S. Tsai, H. E. Horng, J. T. Jeng, M. H. Hsu, and T. S Lai “Influence of bicrystal microstructural defects on high-transition-temperature direct-current superconducting quantum interference device,” Appl. Phys. Lett. 88, 102504 (Mar. 8, 2006).

SCI, EI         41       Jen-Tzong Jeng*, Guan-Shiun Lee, Wen-Chu Liao, and Chia-Lun Shu,  “Depth-resolved eddy-current detection with GMR magnetometer,” Journal of Magnetism and Magnetic Materials, vol. 304, e470–e473 (2006).

SCI, EI         40       C.H. Wu, M.J. Chen, M.H. Hsu, J.C. Chen, K.L. Chen, J.H. Chen, J.T. Jeng, T.S. Lai, H.E. Horng, H.C. Yang*, “Optimization of step-edge substrates for high-TC superconducting devices,” Physica C 433, 108-114 (2005).

SCI, EI         39       Jen-Tzong Jeng*, Hsin-Chin Hung, Chii-Ruey Lin, Chiu-Hsien Wu, Kuen-Lin Chen, Ji-Chen Chen, Hong-Chang Yang, Shu-Hsien Liao, and Herng-Er Horng, “Flux-to-voltage transfer function of the series-SQUID array with grain-boundary Josephson junctions,” IEEE Trans. Appl. Supercond. 15, Jun., 793-796, (2005).

                     38       Hong-Chang Yang*, Shu-Yun Wang, J.C. Chen, M.J. Chen, C.S. Wu, H.E. Horng, Shu-Hsien Liao, and Jen-Tzong Jeng, “High-Tc SQUIDs Magnetocardiography Systems,” Trans. MRS Jpn. 29, 1285 (2004).

                     37       H.E. Horng*, Jen-Tzong Jeng, Hong-Chang Yang, and J.C. Chen, ”Nondestructive Evaluation of Cracks with High-Tc SQUIDs and Perspective,” Trans. MRS Jpn. 29, 1289 (2004).

SCI Ex.        36       Hong-Chang Yang*, Shu-Hsien Liao Shi-Jun Hsu, Shu-Yun Wang, Herng-Er Horng, C.H. Wu, J.C. Chen, M.J. Chen, J.T. Jeng, "High-Tc SQUIDs Magnetocardiography Imaging Systems," Inst. Phys. Conf. Ser. 181, Nov. 3317 (2004)

SCI Ex.        35       Shu-Hsien Liao, Ming-Jye Chen, Chiu-Hsien Wu, J.C. Chen, Herng-Er Horng*, Hong-Chang Yang, and Jen-Tzong Jeng, "High-Tc SQUIDs for Magnetocardiography and Nuclear Magnetic Resonance," Inst. Phys. Conf. Ser. 181, Nov., 3292 (2004)

SCI Ex.        34       Jen-Tzong Jeng*, Guan-Shiun Lee, Hsin-Chin Hung, Ju-Chien Chen, Wen-Sung Chiou, Li-Lun Chen, Ji-Cheng Chen, Chiu-Hsien Wu, Hong-Chang Yang, and H. E. Horng, "Eddy-Current Magnetic Field Map Using a Planar HTS SQUID Gradiometer," Inst. Phys. Conf. Ser. 181, 3247 (2004)

SCI               33       H.C. Yang*, S.Y. Hung, S.H. Liao, S.J. Hsu, S.Y. Wang, J. C. Chen, M.J. Chen, C.H. Wu, H.E. Horng, S.Y. Yang, and J.T. Jeng, “Detection and Modeling of the Cardiac Magnetic Field Using High-TC SQUID Gradiometers,” Chin. J. Phys. 42, No. 4-II, Aug., 508 (2004).

SCI, EI         32       Herng-Er Horng*, Shou-Yen Hung, Jen-Tzong Jeng, Shu-Hsien Liao, S.-C. Hsu, Ji-Chuu Hwang, and Hong-Chang Yang, “Biomagnetic Measurements with HTS SQUID Magnetometers in Moderate Shielded Environment,” IEEE Trans. Appl. Supercond. 13, No. 2, Jun., 381-384 (2003).

SCI, EI         31       Hong-Chang Yang*, Shu-Yun Wang, Jen-Tzong Jeng, Jau-Han Chen, and Herng-Er Horng, “Off-Axis Second-Order High-Tc SQUID Gradiometer for Magnetocardiography in Unshielded Environment,” IEEE Trans. Appl. Supercond. 13, No. 2, Jun., 360-363 (2003).

EI                  30       Hong-Chang Yang*, Jau-Han Chen, Shu-Yun Wang, Chin-Hao Chen, Jen-Tzong Jeng, Ji-Cheng Chen, Chiu-Hsien Wu, Shu-Hsien Liao, Herng-Er Horng, “Superconducting quantum interference device: The most sensitive detector of magnetic flux,” Tamkang Journal of Science and Engineering 6, No.1, Jan., 9-18 (2003)

SCI, EI          29      Jen-Tzong Jeng*, Hsu-Yang Lee, Ji-Cheng Chen, Jau-Han Chen, Chiu-Hsien Wu, Hong-Chang Yang, and Herng-Er Horng, “Integrated Planar HTS SQUID Gradiometer for NDE Application,” Journal of Low Temperature Physics 131, No. 3/4, May, 521-526 (2003).

SCI, EI         28       H.-C. Yang*, Shu-Yu Wang, Chin-Hao Chen, J.-T. Jeng, Jau-Han Chen, and H.-E Horng, “Research and Some Applications of High-Tc SQUIDs,” Journal of Low Temperature Physics 131, No. 3/4, May, 509-520 (2003)

SCI, EI         27       J.T. Jeng, H.E. Horng, and H.C. Yang*, “Crack detection for the graphite slab using the high-Tc SQUID in unshielded environment,” Physica C 372-376, Part 1, Aug., 175-178 (2002)

SCI, EI         26       J.T. Jeng, H.E. Horng, and H.C. Yang*, “High-TC SQUID magnetometers and gradiometers for NDE application,” Physica C 368, Issues 1-4, Mar., 105 –108, (2002)

SCI, EI         25       Hong-Chang Yang*, Jan-Han Chen, Kuen-Lin Chen, Ming-Jye Chen, Chiu-Hsien Wu, Jen-Tzong Jeng, and Herng-Er Horng, “Research on Superconducting Thin Films and Devices,” IEICE Trans. Electron. E85-C, No. 3, 772 (Mar. 2002)

SCI, EI         24       J.T. Jeng, H.E. Horng*, and H.C. Yang, “Detection of small cracks using high-Tc SQUIDs in unshielded environment,” Supercond. Sci. Technol. 15, 416-420 (Feb. 2002).

SCI, EI         23       H.E. Horng*, J.T. Jeng, H.C. Yang, and J.C. Chen, “Evaluation of the flaw depth using high-Tc SQUID,” Physica C 367, Issues 1-4, 303-307 (Feb. 2002)

SCI, EI         22       J.T. Jeng, H.E. Horng*, H.C. Yang, J.C. Chen, and J.H. Chen, “Simulation of the magnetic field due to defects and verification using high-Tc SQUID,” Physica C 367, Issues 1-4, 298-302 (Feb. 2002)

SCI, EI         21       Hong-Chang Yang*, Jen-Tzong Jeng, Herng-Er Horng, Shu-Yun Wang, Shou-Yen Hung, Ji-Cheng Chen, and Jau-Han Chen, “Noise characteristics of high-Tc YBa2Cu3Oy SQUID gradiometers,” Physica C 367, Issues 1-4, 290-294 (Feb. 2002)

SCI, EI         20       H.C Yang*, J.C. Chen,L.M. Wang, H.H. Sung H.E. Horng, S.Y. Yang, and J.T. Jeng, “Transport Studies of YBa2Cu3Oy/YxPr1-xBa2Cu3Oy and YBa2Cu3Oy/R0.7M0-3MnO3 Superlattices, in which R = La or Nd, and M = Ca or Sr,” J. Phys. Chem. Solids 62, 1837-1846 (2001)

SCI, EI         19       J.T. Jeng, S.Y. Yang, H.E. Horng*, and H.C. Yang, “Detection of Deep Flaws by Using a HTS-SQUID in Unshielded Environment,” IEEE Trans. Appl. Supercond. 11, 1295 (2001)

SCI, EI         18       Jau-Han Chen*, Kuen-Lin Chen, Hsiao-Wen Yu, Ming-Jye Chen, Chiu-Hsien Wu; Jen-Tzong Jeng, Herng-Er Horng, Hong-Chang Yang, “Effects of modulation schemes on the performance of directly coupled high-Tc dc SQUID magnetometers,” IEEE Trans. Appl. Supercond. 11, 1110 (2001)

SCI, EI         17       H.C. Yang*, C.H. Wu, M.J. Chen, J.H. Chen, C.H. Chen, H.W. Yu, J.T. Jeng, H.E Horng, “Coherent phase locking of high-Tc YBa2Cu3Oy Josephson junctions,” IEEE Trans. Appl. Supercond. 11, 308 (2001)

SCI, EI         16       J.T. Jeng, Y.C. Liu, S.Y. Yang, H.E. Horng*, H.C. Yang, and H.H. Sung, "Voltage modulation of the high Tc SQUIDs with step-edge junctions," Physica C 341-348 (1-4)  2701-2702 (2000).

SCI, EI         15       H.E. Horng*, S.Y. Yang, Chun-Hui Chen, J.T. Jeng, and H.C. Yang, “Temperature Dependent Characteristics of Step-Edge YBCO SQUIDs,” Physica C 341-348 (1-4)  2699-2700 (2000).

SCI, EI         14       J.T. Jeng, H.E. Horng*, Chao-Hsiang Chen, J.H. Chen, and H.C. Yang, "Nondestructive Evaluation of Flaws Using SQUIDs," Physica C 341-348 (1-4)  2637-2638 (2000).

SCI               13       H.C. Yang*, J.T. Jeng, J.H. Chen, H.E. Horng, and S.Y. Yang, “Noise Study of High-Tc YBa2Cu3Oy Magnetometers Under Microwave Irradiation,” Inst. Phys. Conf. Ser. 167, 493 (2000).

SCI               12       H.E. Horng*, S.Y. Yang, Chun-Hui Chen, J.T. Jeng, and H.C. Yang, " Effect of the thermally activated phase slippage on characterizations of step-edge YBCO SQUIDs," Inst. Phys. Conf. Ser. 167, 477 (2000).

SCI               11       J.T. Jeng, Y.C. Liu, S.Y. Yang, H.E. Horng*, J.R. Chiou, J.H. Chen, and H.C. Yang, "Fabrication of YBCO step-edge Josephson junctions," Inst. Phys. Conf. Ser. 167, 265 (2000)

SCI               10       S.Y. Yang, Chun-Hui Chen, J.T. Jeng, H.E. Horng*, and H.C. Yang, "Characteristics of step-edge YBa2Cu3Oy junctions on various step-angle substrates," Inst. Phys. Conf. Ser. 167, 189 (2000).

SCI                9       H.C. Yang*, S.Y. Yang, H.E. Horng, H.W. Yu, J.H. Chen, J.T. Jeng, and H.W. Lin, "Study of High-Tc YBa2Cu3Oy SQUIDs," Chin. J. Phys. 38, 322 (2000).

SCI                8       H.E. Horng*, L.M. Wang, S.Y. Yang, J.T. Jeng, and H.C. Yang, “Superconducting Pairing Symmetry in YBa2Cu3O7-x From a Study of Josephson Tunnel Junctions,” Chin. J. Phys. 38, 262 (2000).

EI                   7       H.E. Horng*, S.Y. Yang, S.L. Lee, J.M. Wu, J.T. Jeng, Chin-Yih Hong, and H.C. Yang, “Direct evidence of birefringence due to two phases in the magnetic fluid film,” Magnitnaya Gidrodinamika 36(1), 39 (2000).

SCI, EI           6       H.C. Yang*, J.H. Chen, H.E. Horng, S.Y. Yang, and J.T. Jeng, “Integrated High-Tc SQUID-based Voltmeter Operated at 77 K,” IEEE Trans. Appl. Supercond. 9, 4412 (1999).

SCI, EI           5       H.E. Horng*, S.Y. Yang, J.T. Jeng, H.C. Yang, and J.H. Chen, “Characteristics of Noises in High-Temperature YBCO Josephson Junctions,” IEEE Trans. Appl. Supercond. 9,3986 (1999).

SCI                4       S.Y. Yang, J.T. Jeng, H.E. Horng*, and H.C. Yang, "Study on the Dimensionality of Flux Dynamics in Superconducting YBCO/PYBCO Superlattices," Chin. J. Phys. 36, 254 (1998).

SCI                3       S.Y. Yang, J.T. Jeng, H.E. Horng*, and H.C. Yang, "Temperature Dependent Dimensionality of Flux Dynamics in the Superconducting YBCO/PYBCO superlattice," Inst. Phys. Conf. Ser. 158, 157 (1997).

SCI, EI          2       H.E. Horng*, S.Y. Yang, J.T. Jeng, J.M. Wu, and H.C. Yang, “Influence of Magnetic Field on The Flux Motion in Superconducting YBCO/PYBCO Superlattice,” IEEE Trans. Appl. Supercond. 7, 1177(1997).

SCI                1       H.H.Sung*, J.T. Jeng, J.M.Wu, S.Y.Yang, H.E.Horng, H.C.Yang, and L.M.Wang, "Angular dependence of Critical Currents on YBCO/PBCO superlattice," Chin. J. Phys. 34, 493 (1996).

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* Conference papers

72. 梁博堯、鄭振宗、呂志誠,“應用於向量磁場感測器之第二諧波偵測電路研製應用於向量磁場感測器之第二諧波偵測電路研製”,中國機械工程學會第 39 屆全國學術研討會論文集,論文編號B8-007, 2022年12月2-3日 (國立聯合大學)

71. Chia-Ting Yen, Chih-Cheng Lu*, Jen-Tzong Jeng, “Design of 10-bit 16-MS/s SAR-ADC and Driving Circuits for Micro-fluxgate Sensor” 2022 SNDCT 第二屆奈米元件電路與技術研討會 Symposium on Nano-Device Circuits and Technologies, FF11100035, 2022年5月19日至20日,新竹市(線上會議)

70. Hsiang-Ming Li, Jen-Tzong Jeng, Chih-Cheng Lu, “Fabrication and Characterization of CMOS MEMS Fluxgate with Noncrystalline Magnetic Material”, ICSS 2020 International Conference on Smart Sensors, 19-20 October, 2020, National Sun Yat-sen University, Kaohsiung, Taiwan, Paper ID: 93.

69. Yi-Hsuan Kuo, Jen-Tzong Jeng, Chih-Chen Lu, “Flaw and its Depth Evaluation for Metals with the Differential Eddy-Current Probe and Dual Phase Synchronous Signal Detection Software”, ICSS 2020 International Conference on Smart Sensors, 19-20 October, 2020, National Sun Yat-sen University, Kaohsiung, Taiwan, Paper ID: 94.

68. Huu Thang Nguyen, Jen-Tzong Jeng*, Van-Dong Doan, Chinh-Hieu Dinh, Duy Vinh Dao, Thi Trang Pham, “Detection of surface flaw with giant-magnetoresistance sensor”, ICSS 2020 International Conference on Smart Sensors, 19-20 October, 2020, National Sun Yat-sen University, Kaohsiung, Taiwan, Paper ID: 149.

67. Thi Trang Pham, Jen-Tzong Jeng, Ching-Yao Chen, and Wei-Hsiang Chao, "Design and Simulation of a Light-Weight Static-Field Magnet",中國機械工程學會第三十六屆全國學術研討會論文集, 論文編號00313, 2019年12月7-8日 (國立臺灣師範大學)。

66. 鄭振宗、范氏莊、詹程雄、曾慶輝、李彥宏、潘冠呈、劉宗龍、陳慶耀、趙偉祥,"磁流推進器之永久磁鐵組設計分析", 中科院108年國防科技學術合作計畫成果論文集,論文編號41,2019年11月21日(桃園市)。

65. Xuan-Thang Trinh, Jen-Tzong Jeng, Chih-Hsien Hung, Chih-Cheng Lu, “Non-Contact Current Measurement with Field-Modulated Spin-Valve GMR Sensor”, 第十五屆自動化科技國際研討會(Automation2018), #1120, Dec. 6-8, 2018, 台中市(國立勤益科技大學)

64. 陳靖元、鄭振宗, “基於電磁感應之非破壞式厚度量測參數探討”, 中國機械工程學會第三十五屆全國學術研討會論文集,#0330, 中華民國107年11月31至12月1日,嘉義縣民雄鄉(國立中正大學)。

63. 曹倉豪、鄭振宗, “金屬材質感測器之電橋式線圈設計及模擬”, 中國機械工程學會第三十五屆全國學術研討會論文集,#0523, 中華民國107年11月31至12月1日,嘉義縣民雄鄉(國立中正大學)。

62. 藍敏嘉、鄭振宗*, "加速度傳感器於短時間運動分析應用",中國機械工程學會第34全國學術研討會論文集,論文編號:10370,2017年12月1~2日,國立勤益科技大學(台中市)。

61. The-Cuong Uong, Jen-Tzong Jeng, Wei-Chun Chan, Jyun-Kai Wang, “Resonant Circuit Eddy Current Sensor for Metal Sorting”, 第28屆磁學與磁性技術研討會, 論文編號 PH-02, 2016年7月30~8月1日, 國立成功大學(台南市)。

60. 陳柏辰、江家宜、鄭振宗*,“以地磁校正三軸磁場感測器之方法研究”, 論文編號: 2361, 中國工程機械學會104年度年會暨第32屆全國學術研討會,2015年12月11~12日,蓮潭國際會館(高雄市)。

59. 詹崴鈞、賴柏霖、江家宜、鄭振宗*、呂志誠, “應用於電子羅盤之磁場與重力感測器融合分析 Analysis on the fusion of magnetic and gravity sensors for electronic compass”, 論文編號: 0248, 中國工程機械學會104年度年會暨第32屆全國學術研討會,2015年12月11~12日,蓮潭國際會館(高雄市)。

58.  蔡彥成、呂志誠、鄭振宗,“應用於微磁通閘電子羅盤之最佳磁芯薄膜製程參數探討”, 2015 智慧電子應用設計研討會,Paper #17, 2015. pp.39,2015年11月30日,國立高雄應用科技大學(高雄市)。

57. Chih-Cheng  Lu,  Cheng-Yao  Shiue,  Bo-Rei  Huang,  Meng-Huan  Chia,  and  Jeng-Tzong Jeng, “Design and Characterization of a Planar Micro-Fluxgate Magnetic Sensors for 3-D Magnetic Field Detection”, Paper ID: G-006, 13th International Conference on Automation Technology (Automation 2015), November 13-15, 2015, National Taiwan Normal Unversity, Taipei, Taiwan. 

56. 陳鈺仁、鄭振宗* , “應用於穿隧磁阻感測器之平面型截磁器”, 第四屆海峽兩岸動力學、振動學與控制學術會議論文集, #3-1, 2015年5月31日~6月1日, 國立第一科技大學(高雄市)。

55. 王俊凱、陳柏辰、鄭振宗*, “基於電感式位移感測器之磁性異物檢測裝置”, 第27屆磁學與磁性技術研討會, 論文編號 PC10, 2015年6月28~30日, 國立臺灣師範大學(台北市)。

54. 賴柏霖、江家宜、鄭振宗*、呂志誠, “數位化巨磁阻磁場量測系統”, 中國機械工程學會第三十一屆全國學術研討會論文集, 論文編號#02199, 2014年12月6-7日, 逢甲大學(台中市)。

53. 江家宜、鄭振宗*、呂志誠, “交流驅動的三軸巨磁阻感測器之響應度分析”, 第26屆磁學與磁性技術研討會, 論文編號PH02, 2014年6月22-24日, 國立清華大學(新竹市)。

52. 賈孟寰、鄭振宗*, “基於FPGA之巨磁阻磁強計驅動電路”, 中國機械工程學會第三十屆全國學術研討會論文集, 論文編號#1736, 2013年12月6-7日, 國立宜蘭大學(宜蘭縣)。

51. 洪聖芳、鄭振宗*, “繞線式比流器之頻率響應特性分析”, 中國機械工程學會第三十屆全國學術研討會論文集, 論文編號#1720, 2013年12月6-7日, 國立宜蘭大學(宜蘭縣)。

50. 賈孟寰、鄭振宗*, “應用FPGA之GMR感測器交流驅動電路設計”, 2013年臺灣磁性技術協會暨第二十五屆磁學與磁性技術研討會,論文編號P-B-04,2013年7月21日~22日,台中裕元花園酒店(台中市)。

49. 魏世峰、鄭振宗*, “磁通導引器之二維磁場模擬分析”, 2013年臺灣磁性技術協會暨第二十五屆磁學與磁性技術研討會,論文編號P-B-03,2013年7月21日~22日,台中裕元花園酒店(台中市)。

48. 洪聖芳、鄭振宗*, “高頻寬非接觸式電流感應器之參數分析”, 2013年臺灣磁性技術協會暨第二十五屆磁學與磁性技術研討會,論文編號P-B-02,2013年7月21日~22日,台中裕元花園酒店(台中市)。

47. 邱柏凱、呂志誠、鄭振宗, “微磁通閘磁場感測器之驅動電路設計”, 第十七屆奈米工程暨微系統技術研討會,論文編號D10-22,2013年8月22日~23日,逢甲大學(台中市)。

46. S.L. Chiu, C.C. Lu, J.T. Jeng, “A CMOS micro-fluxgate magnetometer for dual-axis magnetic field detection”, International Symposium on Advanced Magnetic Materials and Applications (ISAMMA2013), Paper No. PF08, Jul. 21-25, 2013, Taichung, Taiwan. [CIC]

45. S.L. Chiu(邱士良), C.C. Lu(呂志誠), J.T. Jeng(鄭振宗), “Novel CMOS micro-fluxgate magnetic sensors using flip-chip techniques”, International Symposium on Advanced Magnetic Materials and Applications (ISAMMA2013), Paper No. EB10, Jul. 21-25, 2013, Taichung, Taiwan. [CIC]

44. C.C. Lu(呂志誠)*, J.T. Jeng(鄭振宗), S.L. Chiu(邱士良), B.K. Chiu(邱柏凱), and W.Z. Liao(廖唯佐), “Design and simulations of mixed transducing circuits for a CMOS microfluxgate magnetometer”, The 24th IASTED International Conference on Modelling and Simulation (MS 2013), Paper No. 802-082, Jul. 17-19, 2013, Banff, Canada. [CIC]

43. 張進雄、鄭振宗*,“繞線式福斯特型通量閘之多重諧波轉移率與雜訊特性測定”,中國機械工程學會第二十九屆全國學術研討會論文集, 論文編號#1669, 2012年12月7-8日, 國立中山大學機械系(高雄市)。

42. 陳博能、鄭振宗*,“熱處理步驟於釔鋇銅氧高溫超導薄膜之電阻特性的影響”,中國機械工程學會第二十九屆全國學術研討會論文集, 論文編號#1668, 2012年12月7-8日, 國立中山大學機械系(高雄市)。

41. 張展耀、鄭振宗*, “釔鋇銅氧高溫超導薄膜製作”, 中國機械工程學會第二十八屆全國學術研討會論文集, 論文編號D10-009, 2011年12月10日~11日, 國立中興大學機械系,台中市。

40. 陳建豪、許廷宇、鄭振宗*、呂志誠, “雙正方磁芯通量閘磁強計製備與二次諧波特性測定”, 中國機械工程學會第二十八屆全國學術研討會論文集, 論文編號E08-015, 2011年12月10日~11日, 國立中興大學機械系,台中市。

39. Chan-Yao Chang, Chi-Ming Hsu, Jen-Tzong Jeng*, “Integrated directly-coupled SQUID magnetometer and gradiometer”, Physics Procedia 36, .pp.144-149 (2012). Presented at the EUCAS-ISEC-ICMC 2011, Superconductivity Centennial Conference, Sep. 18-23 September 2011, Hague, Netherlands.
DOI: http://dx.doi.org/10.1016/j.phpro.2012.06.061

38. 陳建豪、許廷宇、鄭振宗*、呂志誠, “微型雙磁芯通量閘磁強計製作與諧波特性測定”, 第15屆奈米工程暨微系統技術研討會論文集, 論文編號CP-024-155, 2011年9月6~7日, 國立台北科技大學機械系,台北市

37. 曾琬鈞、楊倩惠、許智銘、鄭振宗*, “高溫超導量子干涉元件之選擇性串聯陣列製作與特性分析”, 第15屆奈米工程暨微系統技術研討會論文集, 論文編號CP-023-148, 2011年9月6~7日, 國立台北科技大學機械系,台北市。

36. 張文柳、王志成、呂志誠*、余昇峰、鄭振宗, “硬幣辦識技術基於渦電流感測及統計圖樣分析法”, 第15屆奈米工程暨微系統技術研討會論文集, 論文編號CP-022-137, 2011年9月6~7日, 國立台北科技大學機械系,台北市。

35. 陳信仲、呂志誠*、鄭振宗, 「整合降頻式驅動電路設計之新型微磁通閘感測器」,第15屆奈米工程暨微系統技術研討會論文集, 論文編號CP-028-168, 2011年9月6~7日, 國立台北科技大學機械系,台北市。[CIC]

34. 劉育廷、呂志誠*、鄭振宗, 「整合CMOS與銲線製程之雙磁芯微磁通閘磁場感測器」,第15屆奈米工程暨微系統技術研討會論文集, 論文編號CO-015-169, 2011年9月6~7日, 國立台北科技大學機械系,台北市。[CIC]

33. Wen-Liu Chang, Chih-Cheng Wang, Chih-Cheng Lu*, Sheng-Fong Yu, and Jen-Tzong Jeng, “The development of a rapid coin recognition method based on eddy-current sensors”, Proceedings of 2011 National Symposium on System Science and Engineering, P0328, June 17~18, 2011, National Chi Nan University, Nantou, Taiwan

32. 【EI】Yan-Ting Chen, Chih-Cheng Lu*, Guo-Ming Sung, Jen-Tzong Jeng, “Design and Implementation of Driving Circuits for Micro Fluxgate Sensors Employing Multiple-Harmonic Characteristics”, the 6th annual IEEE conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS), Feb. 20-23, 2011, Kaohsiung, Taiwan. Poster ID 404. [CIC]

31. 【EI】 Weng-Sheng Huang, Chih-Cheng Lu*, Jen-Tzong Jeng, “A Novel 3D CMOS Micro-Fluxgate Magnetic Sensor for Low Magnetic Field Detection”, the 9th Annual IEEE Conference on Sensors – IEEE Sensors 2010 Conference, Hawaii, USA, November 1-4, 2010, B2P-M17, pp.1791-1794. [CIC]
DOI: http://dx.doi.org/10.1109/ICSENS.2010.5689981

30. 許智銘, 蔡博任, 鄭振宗, “高溫超導薄膜微橋與約瑟夫森接面元件之特性量測電路”, 中國機械工程學會第二十七屆全國學術研討會論文集, BB11-009, 2010年12月10日~11日, 國立台北科技大學機械系,台北市。

29. 楊倩惠, 蔡博任, 鄭振宗, “超導薄膜元件之電壓-電流特性資料擷取分析軟體”, 中國機械工程學會第二十七屆全國學術研討會論文集, BB11-010, 2010年12月10日~11日, 國立台北科技大學機械系,台北市。

28.【EI】 Jen-Tzong Jeng*, Ting-Yu Xu, Chih-Cheng Lu, “Linearized Giant-Magnetoresistance Sensor for Static Field Measurement”, the 2nd International Conference on Mechanical and Electronics Engineering, ICMEE 2010, Kyoto, Japan, August 1-3, 2010, vol. 1, pp.210-212.
DOI: http://dx.doi.org/10.1109/ICMEE.2010.5558564

27.【EI】 Weng-Sheng Huang, Chih-Cheng Lu*, Jen-Tzong Jeng, “Multiple Frequency Characterizations of a CMOS Planar Fluxgate Magnetic Sensor”, the 2nd International Conference on Mechanical and Electronics Engineering,ICMEE 2010, Kyoto, Japan, August 1-3, 2010, vol. 1, pp.409-412. [CIC]
DOI: http://dx.doi.org/10.1109/ICMEE.2010.5558520

26.【EI】 Jen-Tzong Jeng*, Ting-Yu Xu, Chih-Cheng Lu, and Bo-Ren Cai, “Harmonic response of GMR sensor under sinusoidal excitation field”, the 2nd International Symposium on Advanced Magnetic Materials and Applications (ISAMMA 2010), Sendai, Japan, July 12-16, 2010. Journal of Physics: Conference Series, vol. 266, Article no. 012034, 2011.
DOI: http://dx.doi.org/10.1088/1742-6596/266/1/012034

25. 劉育廷、鄭振宗、呂志誠*、趙方毓, 「CMOS微磁通閘晶片感測器製作及特性分析」, 2011年臺灣磁性技術協會暨第二十三屆磁學與磁性技術研討會,2010年6月27日~29日,國立清華大學(新竹市)。[CIC]

24. Wen-Liu Chang(張文柳), Chih-Cheng Wang(王志成), Sheng-Fong Yu(余昇峰), Chih-Cheng Lu(呂志誠)* and Jen-Tzong Jeng(鄭振宗), “A statistical pattern analysis approach of coin identification based on Eddy-current sensor”, 2011年臺灣磁性技術協會暨第二十三屆磁學與磁性技術研討會,2010年6月27日~29日,國立清華大學(新竹市)。

23. 鄭振宗*, 呂志誠, 黃文聖, 蔡博任, 許廷宇, "正弦激發之磁場感測器的諧波特性分析", 2010年臺灣磁性技術協會暨第二十二屆磁學與磁性技術研討會, 編號GI3, 2010年6月23~25日, 國立中興大學(南投縣仁愛鄉-惠蓀林場)。

22. 黃文聖、呂志誠*、鄭振宗, 「新型 CMOS-MEMS 立體式微磁通閘設計與特性量測」, 第15屆奈米工程暨微系統技術研討會論文集, CP07-18 2010年9月2~3日, 國立中山大學,高雄市。[CIC]

21. 黃文聖、鄭振宗、呂志誠*, 「CMOS-MEMS微磁通閘製作與頻率特性測定」, 2010第十八屆全國自動化科技研討會, 論文編號A07-0002, 中原大學(中壢), 2010年6月25~26日。

20. 陳彥廷、鄭振宗、呂志誠*, 「磁通閘特性測定與運用混合訊號之磁強計驅動電路設計」, 2010第十八屆全國自動化科技研討會, 論文編號A06-0011, 中原大學 (中壢), 2010年6月25~26日。

19. 余昇峰, 鄭振宗, “目標物電磁性質於渦電流距離感測器輸出之影響”, 中國機械工程學會第二十六屆全國學術研討會論文集, B13-009, 2009年11月20日~21日, 國立成功大學機械系。

18. 陳宏毅, 呂志誠, 鄭振宗, “應用CMOS-MEMS 製程技術於輪胎摩擦力感測晶片之研製”, 第十三屆中華民國車輛工程學術研討會(論文編號E004),明志科技大學(台北),2008年10月31日。[CIC]

17. 林家宏, 陳彥志, 呂志誠, 鄭振宗, “CMOS-MEMS植入式血糖感測晶片”, 中國機械工程學會第二十五屆全國學術研討會論文集 (論文編號: 1245), 2008年11月21~ 22日, 大葉大學機械與自動化工程學系。[CIC]

16. 莊竣閎, 郭冠易, 鄭振宗、呂志誠, “巨磁阻電橋特性測定與磁量計驅動電路設計,” 中國機械工程學會第二十五屆全國學術研討會論文集, B13-12 (論文編號: 1087), 2008年11月21~ 22日, 大葉大學機械與自動化工程學系[CIC]
16. 李承勳, 陳亭宏, 鄭振宗、呂志誠, “繞線式磁通閘磁量計之製作與特性測定,” 中國機械工程學會第二十五屆全國學術研討會論文集, B13-11 (論文編號: 0953), 2008年11月21~ 22日, 大葉大學機械與自動化工程學系[CIC]

15.
廖問初, 鄭振宗, “巨磁阻磁力計於磁源反算問題分析,” 第十八屆磁學與磁性技術研討會論文集, pp. 4-9, 2006628~ 30, 國立台灣大學凝態中心。

14. J. T. Jeng, K. H. Huang, Y. C. Lin, Y. C. Kang, C.-H. Wu, K.-L. Chen, J.-C. Chen, S. H. Liao, H.-C. Yang, H.-E. Horng, “Probability Density Function of the Parameter Spread for HTS dc SQUID”, Proceeding of the 10th International Superconducting Electronic Conference, ISEC’05, Sep. 5-9, 2005, Noordwijkerhout, Netherlands. 

13. Kuen-Lin Chen, Chiu-Hsien Wu, Ji-Cheng Chen, Jau-Han Chen, J. T. Jeng, Herng-Er Horng, Hong-Chang Yang, “High-Tc Electronic Planar Second-Order Gradiometer Constructed of Integrated Four dc SQUID Magnetometers”, Proceeding of the 10th International Superconducting Electronic Conference, ISEC’05, Sep. 5-9, 2005, Noordwijkerhout, Netherlands.

12. Chiu-Hsien Wu, Kuen-Lin Chen, Ji-Cheng Chen, J. T. Jeng, Herng-Er Horng, Hong-Chang Yang, “Highly sensitive YBa2Cu307 SQUID magnetometer with flip-chip flux transformer”, Proceeding of the 10th International Superconducting Electronic Conference, ISEC’05, Sep. 5-9, 2005, Noordwijkerhout, Netherlands.

11. Jen-Tzong Jeng, “Effect of critical-current spread on voltage swing of HTS SQUID array”, Proceeding of the 2005 Japan-Taiwan Symposium on Superconductive Electronics, pp. 97, Sapporo, Japan, February 9-11, 2005. (Invited Speaker)

10. Chin-Yih Hong, H.E. Horng, J.T. Jeng, H.C. Yang, “SQUID-based Nondestructive Evaluation”, Proceeding of the 2005 Japan-Taiwan Symposium on Superconductive Electronics, pp. 47, Sapporo, Japan, February 9-11, 2005.

9. 李冠勳, 鄭振宗, “使用感應線圈梯度計於導電材料內部缺陷深度分析”, 中國機械工程學會第二十一屆全國學術研討會論文集, pp. 4731, 20041126~ 27, 國立中山大學

8. 康堯欽, 鄭振宗, “以傾斜軸磁控濺鍍法製作高溫超導薄膜YBa2Cu3Oy”, 中國機械工程學會第二十一屆全國學術研討會論文集, pp. 5043, 20041126~ 27, 國立中山大學。

7. 許嘉倫, 鄭振宗, 汪家昌, “利用編碼圖案作低曲率三維表面量測”, 中國機械工程學會第二十一屆全國學術研討會論文集, p 6623, 20041126~ 27, 國立中山大學。

6. Jen-Tzong Jeng, Hsu-Yang Lee, Hong-Chang Yang, Herng-Er Horng, “Eddy-Current Probes with SQUID Gradiometer for Flaw Detection in Conducting Materials”, proceeding of "2002 Taiwan-Japan Symposium on SQUID & Communication Electronics", Nov. 25-29, 2002, Da-Yeh University, Taiwan, R.O.C.

5. J.T. Jeng, H.E. Horng, H. C. Yang, “Application of High-Tc SQUID to Nondestructive Evaluation”, in Conference proceeding of the First East Asia Symposium On Superconductive Electronics, November 26-28, 2001, Sendai, Japan, Special Issue of Singapore Journal Physics, 18, 7 (2002).

4. Chiu-Hsien Wu, M.J. Chen, J.H. Chen, J.T. Jeng, H.E. Horng and H.C Yang, “Characterization of High-Tc YBa2Cu3Oy Thin Films and Junctions for Device Applications”, in Conference proceeding of the First East Asia Symposium On Superconductive Electronics, November 26-28, 2001, Sendai, Japan, Special Issue of Singapore Journal Physics, 18, 207 (2002).

3. Jau-Han Chen, Kuen-Lin Chen, Chiu-Hsien Wu, Ming-Jye Chen, Hong-Chang Yang, Jen-Tzong Jeng and Herng-Er Horng, “Integrated Four-Channel Directly Coupled High-Tc dc SQUID Magnetometers on a Bicrystal Substrate”, Proceeding of the 8th International Superconducting Electronic Conference, ISEC’01, Jun. 19-22, 2001, Osaka, Japan.

2. J.T. Jeng, H.E. Horng, H.C. Yang and J.C. Chen, “Simulation and verification of the magnetic field due to a flaw using high-Tc SQUIDs”, Proceeding of the 8th International Superconducting Electronic Conference, ISEC’01, Jun. 19-22, 2001, Osaka, Japan.

1. H.E. Horng, J.T. Jeng, H. C. Yang and J. C. Chen, “Evaluation of the depth of the buried flaw by using high-Tc SQUIDs”, Proceeding of the 8th International Superconducting Electronic Conference, ISEC’01, Jun. 19-22, 2001, Osaka, Japan.


* Chinese papers 

2. Jen-Tzong and Chih-Chen Lu, “Fabrication and Characterization of Microfluxgate Magnetic Field Sensor”, News Magazine of Taiwan Association for Magnetic Technology, vol. 54, p.17, January, 2013. (in Chinese)

1. Jen-Tzong Jen and Chih-Chen Lu, “Principle and application of fluxgate magnetometers”, News Magazine of Taiwan Association for Magnetic Technology, vol. 51, p.9, April, 2010. (in Chinese)

 

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